Effect of Serum Components on Syncytium Formation and Virus Production by Cells Infected with Human Immunodeficiency Virus In Vitro

Abstract

Previously it has been reported that cocultivation of human immunodeficiency virus type 1 (HIV-1)-infected cells with uninfected cells results in formation ol multinuclear giant cells, generated via an interaction of gp120 on the surface of infected cells with CD4 on the uninfected cells. Formation of multinuclear giant cells as occurring in the presence of normal fetal calf serum was not observed when HIV-infected MOLT-4 or MOLT-3 cells (chronically infected with HTLV,_IIIB) and uninfected cells were cocultured in both serum-free medium and fibrinogen-depleted serum. Addition of sera (human and rabbit) as well as of fibrinogen (human and bovine), fibronectin (human), and alpha-globulin (human), but not of albumin, transferrin or gamma-globulin to serum-free medium caused formation of multinuclear giant cells. In contrast, HIV production from MOLT-3 cells proceeds also in the absence of serum. In control experiments it was established that the cells maintained at reduced serum concentration, or in serum-free medium without or with fibrinogen are viable even though displaying a lower metabolic rate (ATP formation and DNA synthesis). From these findings we conclude that serum components (e.g., fibrinogen, fibronectin, and alpha-globulin) are absolutely required for syncytium formation but are not essential for virus release.